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/usr/lib/python2.7/dist-packages/doit/task.py is in python-doit 0.25.0-2.

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The actual contents of the file can be viewed below.

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"""Tasks are the main abstractions managed by doit"""

import types
import os
import sys
import inspect
import six

from .cmdparse import CmdOption, TaskParse
from .exceptions import CatchedException, InvalidTask
from .action import create_action, PythonAction


def first_line(doc):
    """extract first non-blank line from text, to extract docstring title"""
    if doc is not None:
        for line in doc.splitlines():
            striped = line.strip()
            if striped:
                return striped
    return ''


class Task(object):
    """Task

    @ivar name string
    @ivar actions: list - L{BaseAction}
    @ivar clean_actions: list - L{BaseAction}
    @ivar teardown (list - L{BaseAction})
    @ivar targets: (list -string)
    @ivar task_dep: (list - string)
    @ivar wild_dep: (list - string) task dependency using wildcard *
    @ivar file_dep: (set - string)
    @ivar calc_dep: (set - string) reference to a task
    @ivar dep_changed (list - string): list of file-dependencies that changed
          (are not up_to_date). this must be set before
    @ivar uptodate: (list - bool/None) use bool/computed value instead of
                                       checking dependencies
    @ivar value_savers (list - callables) that return dicts to be added to
                           task values. Always executed on main process.
                           To be used by `uptodate` implementations.
    @ivar setup_tasks (list - string): references to task-names
    @ivar is_subtask: (bool) indicate this task is a subtask
    @ivar has_subtask: (bool) indicate this task has subtasks
    @ivar result: (str) last action "result". used to check task-result-dep
    @ivar values: (dict) values saved by task that might be used by other tasks
    @ivar getargs: (dict) values from other tasks
    @ivar doc: (string) task documentation

    @ivar options: (dict) calculated params values (from getargs and taskopt)
    @ivar taskopt: (cmdparse.CmdParse)
    @ivar custom_title: function reference that takes a task object as
                        parameter and returns a string.
    """

    DEFAULT_VERBOSITY = 1
    string_types = (str, ) if six.PY3 else (str, unicode)
    # list of valid types/values for each task attribute.
    valid_attr = {'basename': (string_types, ()),
                  'name': (string_types, ()),
                  'actions': ((list, tuple), (None,)),
                  'file_dep': ((list, tuple), ()),
                  'task_dep': ((list, tuple), ()),
                  'uptodate': ((list, tuple), ()),
                  'calc_dep': ((list, tuple), ()),
                  'targets': ((list, tuple), ()),
                  'setup': ((list, tuple), ()),
                  'clean': ((list, tuple), (True,)),
                  'teardown': ((list, tuple), ()),
                  'doc': (string_types, (None,)),
                  'params': ((list, tuple,), ()),
                  'verbosity': ((), (None,0,1,2,)),
                  'getargs': ((dict,), ()),
                  'title': ((types.FunctionType,), (None,)),
                  'watch': ((list, tuple), ()),
                  }


    def __init__(self, name, actions, file_dep=(), targets=(),
                 task_dep=(), uptodate=(),
                 calc_dep=(), setup=(), clean=(), teardown=(),
                 is_subtask=False, has_subtask=False,
                 doc=None, params=(), verbosity=None, title=None, getargs=None,
                 watch=()):
        """sanity checks and initialization

        @param params: (list of dict for parameters) see cmdparse.CmdOption
        """

        getargs = getargs or {} #default
        self.check_attr(name, 'name', name, self.valid_attr['name'])
        self.check_attr(name, 'actions', actions, self.valid_attr['actions'])
        self.check_attr(name, 'file_dep', file_dep, self.valid_attr['file_dep'])
        self.check_attr(name, 'task_dep', task_dep, self.valid_attr['task_dep'])
        self.check_attr(name, 'uptodate', uptodate, self.valid_attr['uptodate'])
        self.check_attr(name, 'calc_dep', calc_dep, self.valid_attr['calc_dep'])
        self.check_attr(name, 'targets', targets, self.valid_attr['targets'])
        self.check_attr(name, 'setup', setup, self.valid_attr['setup'])
        self.check_attr(name, 'clean', clean, self.valid_attr['clean'])
        self.check_attr(name, 'teardown', teardown, self.valid_attr['teardown'])
        self.check_attr(name, 'doc', doc, self.valid_attr['doc'])
        self.check_attr(name, 'params', params, self.valid_attr['params'])
        self.check_attr(name, 'verbosity', verbosity,
                        self.valid_attr['verbosity'])
        self.check_attr(name, 'getargs', getargs, self.valid_attr['getargs'])
        self.check_attr(name, 'title', title, self.valid_attr['title'])
        self.check_attr(name, 'watch', watch, self.valid_attr['watch'])

        self.name = name
        self.taskcmd = TaskParse([CmdOption(opt) for opt in params])
        self.options = self._init_options()
        self.setup_tasks = list(setup)

        # actions
        self._action_instances = None
        if actions is None:
            self._actions = []
        else:
            self._actions = list(actions[:])

        self._init_deps(file_dep, task_dep, calc_dep)

        self.value_savers = []
        self.uptodate = self._init_uptodate(uptodate) if uptodate else []

        self.getargs = getargs
        if self.getargs:
            self._init_getargs()
        self.targets = targets
        self.is_subtask = is_subtask
        self.has_subtask = has_subtask
        self.result = None
        self.values = {}
        self.verbosity = verbosity
        self.custom_title = title

        # clean
        if clean is True:
            self._remove_targets = True
            self.clean_actions = ()
        else:
            self._remove_targets = False
            self.clean_actions = [create_action(a, self) for a in clean]

        self.teardown = [create_action(a, self) for a in teardown]
        self.doc = self._init_doc(doc)
        self.watch = watch


    def _init_deps(self, file_dep, task_dep, calc_dep):
        """init for dependency related attributes"""
        self.dep_changed = None

        # file_dep
        self.file_dep = set()
        self._expand_file_dep(file_dep)

        # task_dep
        self.task_dep = []
        self.wild_dep = []
        if task_dep:
            self._expand_task_dep(task_dep)

        # calc_dep
        self.calc_dep = set()
        if calc_dep:
            self._expand_calc_dep(calc_dep)


    def _init_uptodate(self, items):
        """wrap uptodate callables"""
        uptodate = []
        for item in items:
            # configure task
            if hasattr(item, 'configure_task'):
                item.configure_task(self)

            # check/append uptodate value to task
            if isinstance(item, bool) or item is None:
                uptodate.append((item, None, None))
            elif hasattr(item, '__call__'):
                uptodate.append((item, [], {}))
            elif isinstance(item, tuple):
                call = item[0]
                args = list(item[1]) if len(item)>1 else []
                kwargs = item[2] if len(item)>2 else {}
                uptodate.append((call, args, kwargs))
            elif isinstance(item, six.string_types):
                uptodate.append((item, [], {}))
            else:
                msg = ("%s. task invalid 'uptodate' item '%r'. " +
                       "Must be bool, None, str, callable or tuple " +
                       "(callable, args, kwargs).")
                raise InvalidTask(msg % (self.name, item))
        return uptodate


    def _expand_file_dep(self, file_dep):
        """put input into file_dep"""
        for dep in file_dep:
            if not isinstance(dep, six.string_types):
                raise InvalidTask("%s. file_dep must be a str got '%r' (%s)" %
                                  (self.name, dep, type(dep)))
            self.file_dep.add(dep)


    def _expand_task_dep(self, task_dep):
        """convert task_dep input into actaul task_dep and wild_dep"""
        for dep in task_dep:
            if "*" in dep:
                self.wild_dep.append(dep)
            else:
                self.task_dep.append(dep)


    def _expand_calc_dep(self, calc_dep):
        """calc_dep input"""
        for dep in calc_dep:
            if dep not in self.calc_dep:
                self.calc_dep.add(dep)


    def _extend_uptodate(self, uptodate):
        """add/extend uptodate values"""
        self.uptodate.extend(self._init_uptodate(uptodate))


    # FIXME should support setup also
    _expand_map = {'task_dep': _expand_task_dep,
                   'file_dep': _expand_file_dep,
                   'calc_dep': _expand_calc_dep,
                   'uptodate': _extend_uptodate,
                   }
    def update_deps(self, deps):
        """expand all kinds of dep input"""
        for dep, dep_values in six.iteritems(deps):
            if dep not in self._expand_map:
                continue
            self._expand_map[dep](self, dep_values)


    def _init_options(self):
        """put default values on options. this will be overwritten, if params
        options were passed on the command line.
        """
        # ignore positional parameters
        return self.taskcmd.parse('')[0]


    def _init_getargs(self):
        """task getargs attribute define implicit task dependencies"""
        for arg_name, desc in six.iteritems(self.getargs):

            # tuple (task_id, key_name)
            parts = desc
            if isinstance(parts, six.string_types) or len(parts) != 2:
                msg = ("Taskid '%s' - Invalid format for getargs of '%s'.\n" %
                       (self.name, arg_name) +
                       "Should be tuple with 2 elements " +
                       "('<taskid>', '<key-name>') got '%s'\n" % desc)
                raise InvalidTask(msg)

            if parts[0] not in self.setup_tasks:
                self.setup_tasks.append(parts[0])


    @staticmethod
    def _init_doc(doc):
        """process task "doc" attribute"""
        # store just first non-empty line as documentation string
        return first_line(doc)

    @staticmethod
    def check_attr(task, attr, value, valid):
        """check input task attribute is correct type/value

        @param task (string): task name
        @param attr (string): attribute name
        @param value: actual input from user
        @param valid (list): of valid types/value accepted
        @raises InvalidTask if invalid input
        """
        if type(value) in valid[0]:
            return
        if value in valid[1]:
            return

        # input value didnt match any valid type/value, raise execption
        msg = "Task '%s' attribute '%s' must be " % (task, attr)
        accept = ", ".join([getattr(v, '__name__', str(v)) for v in
                            (valid[0] + valid[1])])
        msg += "{%s} got:%r %s" % (accept, value, type(value))
        raise InvalidTask(msg)


    @property
    def actions(self):
        """lazy creation of action instances"""
        if self._action_instances is None:
            self._action_instances = [create_action(a, self) for a in self._actions]
        return self._action_instances


    def save_extra_values(self):
        """run value_savers updating self.values"""
        for value_saver in self.value_savers:
            self.values.update(value_saver())


    def _get_out_err(self, out, err, verbosity):
        """select verbosity to be used"""
        priority = (verbosity, # use command line option
                    self.verbosity, # or task default from dodo file
                    self.DEFAULT_VERBOSITY) # or global default
        use_verbosity = [v for v in  priority if v is not None][0]

        out_err = [(None, None), # 0
                   (None, err),  # 1
                   (out, err)]   # 2
        return out_err[use_verbosity]


    def execute(self, out=None, err=None, verbosity=None):
        """Executes the task.
        @return failure: see CmdAction.execute
        """
        task_stdout, task_stderr = self._get_out_err(out, err, verbosity)
        for action in self.actions:
            action_return = action.execute(task_stdout, task_stderr)
            if isinstance(action_return, CatchedException):
                return action_return
            self.result = action.result
            self.values.update(action.values)


    def execute_teardown(self, out=None, err=None, verbosity=None):
        """Executes task's teardown
        @return failure: see CmdAction.execute
        """
        task_stdout, task_stderr = self._get_out_err(out, err, verbosity)
        for action in self.teardown:
            action_return = action.execute(task_stdout, task_stderr)
            if isinstance(action_return, CatchedException):
                return action_return


    def clean(self, outstream, dryrun):
        """Execute task's clean
        @ivar outstream: 'write' output into this stream
        @ivar dryrun (bool): if True clean tasks are not executed
                             (just print out what would be executed)
        """
        # if clean is True remove all targets
        if self._remove_targets is True:
            clean_targets(self, dryrun)
        else:
            # clean contains a list of actions...
            for action in self.clean_actions:
                msg = "%s - executing '%s'\n"
                outstream.write(msg % (self.name, action))

                # add extra arguments used by clean actions
                if isinstance(action, PythonAction):
                    action_args = inspect.getargspec(action.py_callable).args
                    if 'dryrun' in action_args:
                        action.kwargs['dryrun'] = dryrun

                if not dryrun:
                    result = action.execute(out=outstream)
                    if isinstance(result, CatchedException):
                        sys.stderr.write(str(result))

    def title(self):
        """String representation on output.

        @return: (str) Task name and actions
        """
        if self.custom_title:
            return self.custom_title(self)
        return self.name


    def __repr__(self):
        return "<Task: %s>"% self.name


    # when using multiprocessing Tasks are pickled.
    def __getstate__(self):
        """remove attributes that might contain unpickleble content
        mostly probably closures
        """
        to_pickle = self.__dict__.copy()
        del to_pickle['_actions']
        del to_pickle['_action_instances']
        del to_pickle['clean_actions']
        del to_pickle['teardown']
        del to_pickle['custom_title']
        del to_pickle['value_savers']
        del to_pickle['uptodate']
        return to_pickle

    def __eq__(self, other):
        return self.name == other.name

    def update_from_pickle(self, pickle_obj):
        """update self with data from pickled Task"""
        self.__dict__.update(pickle_obj.__dict__)

    def __lt__(self, other):
        """used on default sorting of tasks (alphabetically by name)"""
        return self.name < other.name



def dict_to_task(task_dict):
    """Create a task instance from dictionary.

    The dictionary has the same format as returned by task-generators
    from dodo files.

    @param task_dict (dict): task representation as a dict.
    @raise InvalidTask: If unexpected fields were passed in task_dict
    """
    # check required fields
    if 'actions' not in task_dict:
        raise InvalidTask("Task %s must contain 'actions' field. %s" %
                          (task_dict['name'],task_dict))

    # user friendly. dont go ahead with invalid input.
    task_attrs = list(six.iterkeys(task_dict))
    valid_attrs = set(six.iterkeys(Task.valid_attr))
    for key in task_attrs:
        if key not in valid_attrs:
            raise InvalidTask("Task %s contains invalid field: '%s'"%
                              (task_dict['name'],key))

    return Task(**task_dict)



def clean_targets(task, dryrun):
    """remove all targets from a task"""
    files = [path for path in task.targets if os.path.isfile(path)]
    dirs = [path for path in task.targets if os.path.isdir(path)]

    # remove all files
    for file_ in files:
        six.print_("%s - removing file '%s'" % (task.name, file_))
        if not dryrun:
            os.remove(file_)

    # remove all directories (if empty)
    for dir_ in dirs:
        if os.listdir(dir_):
            msg = "%s - cannot remove (it is not empty) '%s'"
            six.print_(msg % (task.name, dir_))
        else:
            msg = "%s - removing dir '%s'"
            six.print_(msg % (task.name, dir_))
            if not dryrun:
                os.rmdir(dir_)